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Medullary Thyroid Carcinoma Ashok N. Reddy, PGY II Dept. of Otolaryngology Johns Hopkins Hospital Background • Hazard et al described Medullary Thyroid Carcinoma (MTC) in 1959 • MTC represents 4 -5% of all thyroid cancers • 75% of MTCs are sporadic • 25% are inherited MTCs • Hereditary MTCs can occur as part of MEN 2a, MEN 2b, or Familial MTC syndromes • Steiner et al described MEN 2 syndrome in 1968 Medullary Thyroid Carcinoma • MTC arises from parafollicular C cells, not from thyroid follicular cells. • C cells originate from the embryonic neural crest. • They migrate into the thyroid after its descent. • Parafollicular cells produce calcitonin and Carcinoembryogenic antigen (CEA) Inherited MTC • MEN 2a (60% of MEN2): – MTC, Pheochromocytoma, Hyperparathyroidism • MEN 2b (5% of MEN2): – MTC, Pheochromocytoma, Marfanoid, mucosal/intestinal ganglioneuromas • FMTC (35% of MEN2): – MTC only Inherited MTC • • • • Autosomal dominant inheritance Multifocal disease Parafollicular cell hyperplasia present Patients with FMTC present in their 4th decade, MEN 2a in their 3rd decade, and MEN 2b during childhood. Sporadic MTC • Unifocal disease usually • Usually without parafollicular cell hyperplasia • No associated endocrinopathy • Patients present in the 4th decade of life with disease Molecular Biology • Mutation in various codons of RET protooncogene found in: – 97% MEN 2a, 95% MEN 2b, 86% FMTC, and 30% sporadic MTC patients • RET codes for a transmembrane tyrosine kinase receptor • Mutations lead to autophosphorylation of RET, and growth stimulation. Clinical Presentation • Present with a mass, and/or symptoms of local invasion and/or of hormone secretion • Symptoms associated with local invasion: – dysphagia, stridor, or hoarseness • Symptoms associated with hormone secretion: – flushing, diarrhea, and Cushings disease Disease Course • Behavior is indolent to aggressive • Aggressiveness of disease – MEN 2b > MEN 2a = Sporadic > FMTC • Early local and regional metastasis to cervical and mediastinal nodes. • Late distant metastasis to lung, liver, bone, and brain Staging • Tumor – – – – T1: < = 1cm T2: >1 cm , < = 4 cm T3: > 4cm no extracapsular spread T4: Extracapsular spread • Nodal status – N0: No lymph node mets – N1: lymph node mets present • Metastasis – M0: No metastasis – M1: Metastasis present • Stage – – – – I II III IV TNM T1N0M0 T2-4N0M0 T1-4N1M0 T1-4N0-1M1 Diagnostic Work-Up • FNA with calcitonin immunohistochemical screening • Calcitonin testing: baseline level, as well as Pentagastrin stimulation test. • CEA level • Calcium, PTH, urinary catecholamines, vanillylmandelic acid, and metanephrines • Genetic testing for RET mutations • Radiographic testing including CT scan, MRI Prognostic Factors • • • • • • Advanced Stage MTC subtype Age > 40 yrs Pre-op Calcitonin level Male gender Histologic characteristics Therapeutic Options • Surgery - best and only option for a cure • Chemotherapy - late stage, aggressive disease and relief of symptoms related to hormone secretion • External beam radiation - microscopic residual disease and palliation. • Targeted, radionuclide-labeled molecules including anti-CEA antibodies are untested Surgery • Total thyroidectomy is advocated due to the often multifocal nature of MTC. • Extent of nodal dissection is controversial and depends on – Size of disease, Extent of disease, and Pre-op calcitonin level • All four parathyroids should be visualized to determine parathyroid disease. Extent of Lymphatic Disease • *Palpable, unilateral, intrathyroid tumors: metastases found in, – 81% of central neck dissections – 81% of ipsilateral, lateral neck dissections – 44% of contralateral neck dissection specimens • MTC < 1 cm: metastases found in – 22% of contralateral, neck dissections • Cervical lymph node recurrence = 45% *Moley et al Annals of Surgery 229 (6) pp 880 Lymph Node Dissection • Non-palpable disease, with normal calcitonin levels: Central nodal dissection • Palpable primary, N0 disease: Central nodal dissection + Bilateral functional neck dissections. • N1 or greater disease: Central/ lateral/ mediastinal compartment dissections • Calcitonin levels Post-operative follow-up • Calcitonin levels (basal and stimulated) are checked immediately post-op and again starting 2 months after surgery. • CEA levels are also checked • Metastatic search is warranted if Calcitonin levels remain high, or are increasing post-op • Metastatic search includes – CT scan, MRI, Ultrasound, bone scan, nuclear scans, exploratory laparoscopy, selective venous catheterization Prognosis • 10-year survival for Stage I & II – 95% • 10-year survival for Stage III & IV – 55% • MTC recurs in one third of patients after surgery • Survival best for patients with FMTC, and worst for those with MEN 2b Hereditary MTC Screening • RET mutation screening at birth • Follow serum Calcitonin levels and Pentagastrin stimulation tests regularly. • Pentagastrin testing screen on all 1st degree relatives of patients with sporadic MTC • MEN 2b: Micro-foci of MTC detected in children 6 mo. Old Prophylactic Thyroidectomy • MEN 2a: Recommended at age 4-6 yrs old – Some will follow patients with Pentagastrin stimulation test and serum calcitonin levels • MEN 2b: Recommended at age <1 yr old • FMTC: Follow with Pentagastrin stimulation test and serum calcitonin levels. – Some are more aggressive and advocate early thyroidectomy. (Age 4-6) The End
